CN103574011B - A kind of Assembly And Disassembly method of shift handle connecting structure and gear shifting handle - Google Patents

Abstract

The invention discloses a kind of Assembly And Disassembly method of shift handle connecting structure and gear shifting handle, the handle skeleton that gear shifting handle comprises handle spherical shell and is connected with operating handle, linkage structure comprises the connecting end of handle skeleton and the connecting end of operating handle, handle skeleton connecting end is provided with jack, operating handle connecting end is provided with spherical parts, chute and movable part, spherical parts is contained in and runs through in the limited impression of setting on chute madial wall, jack madial wall is provided with dodges groove, movable part comprises slide block and depression bar, slide block is provided with the cell body extended along its length, the elastic component for movable part return is provided with in chute, movable part in operating handle is removable, movable part is self-return under the effect of elastic component, in gear shifting handle assembling and unloading process, movable part can be very fast the position of adjustment spherical parts, movable part can returning quickly under the effect of elastic component, facilitate assembling and the dismounting of gear shifting handle and operating handle, improve working efficiency.

Description

A kind of Assembly And Disassembly method of shift handle connecting structure and gear shifting handle

Technical field

The invention belongs to vehicle manual gear change system field, specifically, the present invention relates to a kind of Assembly And Disassembly method of shift handle connecting structure and gear shifting handle.

Background technique

Manual gearshift systems by speed changer, flexible shaft bracket, select gear shift pulling cable, select selector device, the component such as gear shifting handle and sheath form, wherein gear shifting handle is connected with selecting the operating handle of selector device.At present, select the linkage structure of gear shifting handle and operating handle to adopt more general be thread type and plug type, but in actual production, two kinds of linkage structures all expose respective defect:

1, thread type linkage structure is due to own structural characteristics, general assembling comparatively expends man-hour (needing multi-turn rotation to tighten), may occur because of assembling time do not tighten put in place and produce gear shifting handle loosen problem, and be difficult to realize the location of gear shifting handle in sense of rotation, also may produce the crooked problem of gear shifting handle after assembling;

2, plug-in type connection structure is higher to fit dimension required precision, if component conformity controls not good, then easily produces installation, dismantles comparatively time-consuming, effort, repeatedly easily occur gear shifting handle pull-off problem after dismounting.

Summary of the invention

The invention provides a kind of Assembly And Disassembly method of shift handle connecting structure and gear shifting handle, object is the installation and removal facilitating gear shifting handle, raises the efficiency.

In order to solve the problems of the technologies described above, the technical solution adopted in the present invention is: a kind of shift handle connecting structure, the handle skeleton that gear shifting handle comprises handle spherical shell and is connected with operating handle, linkage structure comprises the connecting end of described handle skeleton and the connecting end of described operating handle, handle skeleton connecting end is provided with the jack for holding operating handle connecting end, operating handle connecting end is provided with spherical parts, the chute extended along operating handle length direction and the movable part that can move linearly, spherical parts is contained in and runs through in the limited impression of setting on chute madial wall, jack madial wall is provided with to embed for spherical parts with limited impression aligned in position fixing dodges groove, movable part comprises and is built in slide block in chute and is located at depression bar that is on slide block and that stretch out in outside operating handle, the side towards limited impression of slide block is provided with the cell body extended along its length direction, cell body is divided into the first groove for avoiding with spherical parts in assembly process successively, assembled embed the second fixing groove for spherical parts and in assembling and unloading process after spherical parts is squeezed for holding the 3rd groove of spherical parts, the elastic component for movable part return is provided with in chute.

Described cell body extends from an end of described slide block, and described second groove and the 3rd groove are the spherical groove with described spherical parts form fit, and described first groove is from the end face of slide block, extend to the second groove and the groove that reduces gradually of width.

Described chute is the U-shaped groove in cross section, and described limited impression is located on two sidewalls paralleled of chute, two limited impression aligned in position, and described in corresponding, the cell body of dodging on groove, spherical parts and slide block is equipped with two.

Described chute extends to the end face of the connecting end of described operating handle, forms an opening at end face, and end face is provided with a limiting stopper for shutoff opening.

The madial wall not arranging limited impression of described chute is provided with the equidirectional extension with chute and is through to the rectangular aperture of operating handle outer side wall, and described depression bar stretches out from this rectangular aperture.

Described depression bar is connected with slide block is vertical at the end position place away from described limiting stopper near described slide block.

Described elastic component is clipped between the end face of described slide block and the interior diapire of described chute.

Described spherical parts is steel ball.

An assembly method for gear shifting handle, gear shifting handle adopts above-mentioned linkage structure to be connected with operating handle, and assembly method comprises:

(1) operating handle is assembled: steel ball is put into limited impression, then elastic component is put into bottom chute, movable part is put into chute, and limiting stopper is welded on the top of operating handle connecting end, steel ball in limited impression embeds in the second groove on the slide block of side, completes the assembling of operating handle;

(2) gear shifting handle is assembled: first press moulded rod downwards with hand, slide block is moved down in chute, elastic component is compressed, the connecting end of handle skeleton is enclosed within the connecting end of the operating handle of previous step assembling, along with pressing down of gear shifting handle, steel ball in limited impression is subject to the extruding of the madial wall of handle skeleton jack, the part that steel ball is arranged in chute is extruded into the 3rd groove on slide block, after gear shifting handle presses down and puts in place, unclamp depression bar, resilient element urges movable part return, steel ball in final limited impression embeds the second groove of both sides respectively and dodges in groove, handle skeleton is made to be fixed on the connecting end of operating handle, complete the assembling of gear shifting handle and operating handle.

A kind of method for dismounting of gear shifting handle, gear shifting handle adopts above-mentioned linkage structure to be connected with operating handle, method for dismounting comprises: with hand downwards by moulded rod, depression bar band movable slider moves down in chute, elastic component is compressed, and then upwards stirs gear shifting handle with hand, and the steel ball in limited impression is squeezed in the 3rd groove of slide block by the madial wall of handle skeleton jack, steel ball no longer embeds dodges in groove, and now gear shifting handle can by from pull-off on operating handle; Gear shifting handle, by after pull-off on operating handle, unclamps depression bar, resilient element urges movable part return, and the steel ball in final limited impression embeds in the second groove on the slide block of side, completes gear shifting handle dismounting.

The present invention adopts technique scheme, compared with prior art, this linkage structure is embedded by the steel ball on operating handle in the groove that movable part and handle skeleton are arranged and realizes gear shifting handle fixing on operating handle, can prevent gear shifting handle from operating handle, occurring the problem of rotation and pull-off, effectively control gear shifting handle crooked; Gear shifting handle adopts this linkage structure to be connected with operating handle, movable part in operating handle is removable, movable part is self-return under the effect of elastic component, in gear shifting handle assembling and unloading process, movable part can be very fast the position of adjustment steel ball, movable part can returning quickly under the effect of elastic component, and whole linkage structure facilitates assembling and the dismounting of gear shifting handle and operating handle, improve working efficiency, save man-hour.

Accompanying drawing explanation

Fig. 1 is the structural representation after gear shifting handle and operating handle assemble;

Fig. 2 is the side view after gear shifting handle and operating handle assemble;

Fig. 3 is A-A sectional view in Fig. 2;

Fig. 4 is the structural representation of gear shifting handle;

Fig. 5 is the plan view of gear shifting handle;

Fig. 6 is C-C sectional view in Fig. 5;

Fig. 7 is the plan view of operating handle;

Fig. 8 is D-D sectional view in Fig. 7;

Fig. 9 is the side view of operating handle;

Figure 10 is E-E sectional view in Fig. 9;

Figure 11 is the structural representation of operating handle connecting end;

Figure 12 is the structural representation of movable part;

Figure 13 is the plan view of movable part;

Figure 14 is the side view of movable part;

Figure 15 is the worm's eye view of movable part;

Figure 16 is the plan view after gear shifting handle and operating handle assemble;

Figure 17 is B-B sectional view in Figure 12;

Mark in above-mentioned figure is: 1, handle spherical shell; 2, handle skeleton; 21, jack; 22, groove is dodged; 23, interior fitting surface; 3, operating handle; 31, chute; 32, limited impression; 33, rectangular aperture; 34, fit on face; 4, movable part; 41, slide block; 42, depression bar; 43, the first groove; 44, the second groove; 45, the 3rd groove; 5, elastic component; 6, steel ball; 7, limiting stopper.

Embodiment

As shown in Fig. 1 to Figure 17, a kind of shift handle connecting structure of the present invention, for the connection of gear shifting handle and operating handle 3.The handle skeleton 2 that gear shifting handle comprises handle spherical shell 1 and is connected with operating handle 3, handle spherical shell 1 is wrapped on the outside of handle skeleton 2.

Specifically, this linkage structure comprises the connecting end of handle skeleton 2 and the connecting end of operating handle 3, the connecting end of handle skeleton 2 is provided with the jack 21 for holding operating handle 3 connecting end, jack 21 is square opening, its madial wall is four interior fitting surfaces 23, relative two interior fitting surfaces 23 are respectively provided with one and dodge groove 22, two aligned in position dodging groove 22.The connecting end of operating handle 3 is square, its outer side wall has four fit on faces 34, fit on face 34 is plane with the interior fitting surface 23 of jack 21, after operating handle 3 connecting end inserts the jack 21 of handle skeleton 2, fit on face 34 fits with the interior fitting surface 23 of jack 21, position, can prevent gear shifting handle from rotating.The chute 31 that the connecting end of operating handle 3 is provided with two spherical partses, extend along operating handle 3 length direction and the movable part 4 that can move linearly.Spherical parts is steel ball 6, steel ball 6 is contained in the limited impression 32 arranged on chute 31 madial wall, limited impression 32 is also through to the fit on face 34 of operating handle 3 connecting end from the madial wall of chute 31, thus makes steel ball 6 all can expose a part in the both sides of limited impression 32.Because limited impression 32 is used to hold steel ball 6, so the shape of limited impression 32 is the ball recess mated with steel ball 6, steel ball 6 is transportable when being squeezed in limited impression 32, the position of dodging groove 22 on jack 21 madial wall and limited impression 32 aligned in position, both numbers are equal, and be two, the effect of dodging groove 22 is that steel ball 6 can be embedded, gear shifting handle being fixed on operating handle 3, dodging the ball recess of shape also for mating with steel ball 6 of groove 22.

Movable part 4 comprises and is built in slide block in chute 31 41 and is located at depression bar 42 that is on slide block 41 and that transversely stretch out in outside operating handle 3.Chute 31 is the U-shaped groove of cross section, and this cross section refers to the plane with operating handle 3 axes normal, and limited impression 32 is located on parallel two sidewalls of chute 31, two limited impression 32 aligned in position.Chute 31 extends to the end face of the connecting end of operating handle 3, forms a U-shaped opening at end face, and end face is provided with a limiting stopper 7 for this opening of shutoff, and limiting stopper 7 is for being welded and fixed.The wall not arranging limited impression 32 of chute 31 is that the madial wall of plane is provided with the equidirectional extension of chute 31 and is through to the rectangular aperture 33 of operating handle 3 outer side wall, rectangular aperture 33 extends to the end face of connecting end from the position bottom chute 31 always, depression bar 42 stretches out from this rectangular aperture 33, thus slide block 41 and depression bar 42 can move freely along chute 31.The movement of chute 31 pairs of slide blocks 41 is led, the shape of slide block 41 will with the mating shapes of chute 31, the profile of slide block 41 is a cylindrical body, the curved wall that slide block 41 inserts its outer peripheral surface and chute 31 after in chute 31 is fitted, depression bar 42 is connected with slide block 41 is vertical at the lower end position place near slide block 41, and depression bar 42 is a round bar.

In chute 31, be provided with the elastic component 5 for making movable part 4 return, elastic component 5 is clipped between the lower end surface of slide block 41 and the interior diapire of chute 31, and this elastic component 5 is a spring.Elastic component 5 is set, movable part 4 returning quickly in assembling and unloading process can be guaranteed, to facilitate the installation and removal of gear shifting handle and operating handle 3, raise the efficiency.

The outer side surface of slide block 41 is provided with the cell body extended along slide block 41 length direction, cell body with the median plane at slide block 41 axis place for symmetry plane is symmetrically arranged with two on slide block 41.Cell body is from the lower end surface place of slide block 41, extend to the position near upper end portion on slide block 41, shape that cell body is processed into " W ", it is divided into the first groove 43, second groove 44 and the 3rd groove 45 along its length successively, namely as the A district in figure, B district and C district.First groove 43 is from the lower end surface of slide block 41, extend to the second groove 44 place and the groove that reduces gradually of width; the effect of the first groove 43 is when assembling operating handle 3; for avoiding with steel ball 6 when movable part 4 inserts in chute 31; namely form on slide block 41 surface the slideway region that can be avoided steel ball 6, guarantee that movable part 4 loads in chute 31 smoothly.Second groove 44 is the spherical groove with steel ball 6 form fit, after gear shifting handle is seated, steel ball 6 in limited impression 32 is extruded in the second groove 44 embedding side, movable part 4 is fixed, and steel ball 6 also embed opposite side dodge in groove 22, handle skeleton 2 is fixed, so, the second groove 44, steel ball 6 and dodge groove 22 and jointly coordinate to reach and control gear shifting handle and operating handle 3 produces relative rotation and the object of pull-off phenomenon.3rd groove 45 is the spherical groove with steel ball 6 form fit, when assembling and dismantle gear shifting handle, press movable part 4, the madial wall of handle skeleton 2 its jack 21 when moving down or upwards stir can extrude steel ball 6 in the 3rd groove 45, is convenient to gear shifting handle and is seated and dismantles.Because the 3rd groove 45 needs the major part holding steel ball 6, it is fixing that steel ball 6 only needs fraction to embed in the second groove 44, and therefore the volume of the 3rd groove 45 to the second groove 44 is large.

The following is the assembling of gear shifting handle and the operating handle 3 adopting this linkage structure, method for dismounting.

An assembly method for gear shifting handle, comprising:

(1) operating handle 3 is assembled: steel ball 6 is put into limited impression 32, then elastic component 5 is put into bottom chute 31, movable part 4 is loaded in chute 31, and limiting stopper 7 is welded on the top of operating handle 3 connecting end, slide block 41 is under the elastic force effect of elastic component 5, upper end is against on limiting stopper 7, and the steel ball 6 in limited impression 32 embeds in the second groove 44 on the slide block 41 of side, completes the assembling of operating handle 3;

(2) gear shifting handle is assembled: first press moulded rod 42 downwards with hand, slide block 41 is moved down in chute 31, and elastic component 5 is compressed, and the 3rd groove 45 is moved downward to steel ball 6 position thereupon, then the connecting end of handle skeleton 2 is enclosed within the connecting end of the operating handle 3 of previous step assembling, along with pressing down of gear shifting handle, the steel ball 6 that limited impression is 32 li is subject to the extruding of the madial wall of handle skeleton 2 jack 21, the part that steel ball 6 is arranged in chute 31 is extruded into the 3rd groove 45 on slide block 41, after gear shifting handle is completely depressed into position, now dodge groove 22 and limited impression 32 aligned in position, unclamp depression bar 42, elastic component 5 promotes movable part 4 return, slide block 41 moves up, 3rd groove 45 extrudes steel ball 6 finally makes steel ball 6 embed the second groove 44 of both sides respectively and dodge in groove 22, handle skeleton 2 is made to be completely fixed in the connecting end of operating handle 3, complete the assembling of gear shifting handle and operating handle 3.

A kind of method for dismounting of gear shifting handle, gear shifting handle adopts above-mentioned linkage structure to be connected with operating handle 3, method for dismounting comprises: with hand downwards by moulded rod 42, depression bar 42 is with movable slider 41 to move down in chute 31, elastic component 5 is compressed, then upwards gear shifting handle is stirred with hand, steel ball 6 in limited impression 32 is squeezed in the 3rd groove 45 of slide block 41 by the madial wall of handle skeleton 2 jack 21, steel ball 6 no longer embeds dodges in groove 22, now gear shifting handle is removed fixing, can by from pull-off on operating handle 3; Gear shifting handle is by after pull-off on operating handle 3, and unclamp depression bar 42, elastic component 5 promotes movable part 4 return, and the steel ball 6 in final limited impression 32 embeds in the second groove 44 on the slide block 41 of side, completes gear shifting handle dismounting.

Above by reference to the accompanying drawings to invention has been exemplary description; obvious specific implementation of the present invention is not subject to the restrictions described above; as long as have employed the improvement of the various unsubstantialities that method of the present invention is conceived and technological scheme is carried out; or design of the present invention and technological scheme directly applied to other occasion, all within protection scope of the present invention without to improve.

Claims (10)

1. a shift handle connecting structure, gear shifting handle comprises the handle skeleton be connected with operating handle, linkage structure comprises the connecting end of described handle skeleton and the connecting end of described operating handle, handle skeleton connecting end is provided with the jack for holding operating handle connecting end, it is characterized in that: operating handle connecting end is provided with spherical parts, the chute extended along operating handle length direction and the movable part that can move linearly, spherical parts is contained in and runs through in the limited impression of setting on chute madial wall, jack madial wall is provided with to embed for spherical parts with limited impression aligned in position fixing dodges groove, movable part comprises and is built in slide block in chute and is located at depression bar that is on slide block and that stretch out in outside operating handle, the outer side surface of slide block is provided with the cell body extended along its length direction, cell body is divided into the first groove for avoiding with spherical parts in assembly process successively, assembled embed the second fixing groove for spherical parts and in assembling and unloading process after spherical parts is squeezed for holding the 3rd groove of spherical parts, the elastic component for movable part return is provided with in chute.

2. shift handle connecting structure according to claim 1, it is characterized in that: described cell body extends from an end of described slide block, described second groove and the 3rd groove are the spherical groove with described spherical parts form fit, and described first groove is from the end face of slide block, extend to the second groove and the groove that reduces gradually of width.

3. shift handle connecting structure according to claim 2, it is characterized in that: described chute is the U-shaped groove in cross section, described limited impression is located on two sidewalls paralleled of chute, two limited impression aligned in position, described in corresponding, the cell body of dodging on groove, spherical parts and slide block is equipped with two.

4. shift handle connecting structure according to claim 3, is characterized in that: described chute extends to the end face of the connecting end of described operating handle, forms an opening at end face, and end face is provided with a limiting stopper for shutoff opening.

5. shift handle connecting structure according to claim 4, it is characterized in that: the madial wall not arranging limited impression of described chute is provided with the equidirectional extension with chute and is through to the rectangular aperture of operating handle outer side wall, and described depression bar stretches out from this rectangular aperture.

6. shift handle connecting structure according to claim 5, is characterized in that: described depression bar is connected with slide block is vertical at the end position place away from described limiting stopper near described slide block.

7. shift handle connecting structure according to claim 6, is characterized in that: described elastic component is clipped between the end face of described slide block and the interior diapire of described chute.

8. shift handle connecting structure according to claim 6, is characterized in that: described spherical parts is steel ball.

9. an assembly method for gear shifting handle, is characterized in that: described gear shifting handle adopts linkage structure as claimed in claim 8 to be connected with operating handle, and described assembly method comprises:

(1) operating handle is assembled: steel ball is put into limited impression, then elastic component is put into bottom chute, movable part is put into chute, and limiting stopper is welded on the top of operating handle connecting end, steel ball in limited impression embeds in the second groove on the slide block of side, completes the assembling of operating handle;

(2) gear shifting handle is assembled: first press moulded rod downwards with hand, slide block is moved down in chute, elastic component is compressed, the connecting end of handle skeleton is enclosed within the connecting end of the operating handle of previous step assembling, along with pressing down of gear shifting handle, steel ball in limited impression is subject to the extruding of the madial wall of handle skeleton jack, the part that steel ball is arranged in chute is extruded into the 3rd groove on slide block, after gear shifting handle presses down and puts in place, unclamp depression bar, resilient element urges movable part return, steel ball in final limited impression embeds the second groove of both sides respectively and dodges in groove, handle skeleton is made to be fixed on the connecting end of operating handle, complete the assembling of gear shifting handle and operating handle.

10. a method for dismounting for gear shifting handle, is characterized in that: described gear shifting handle adopts linkage structure as claimed in claim 8 to be connected with operating handle, and described method for dismounting comprises:

Moulded rod is pressed downwards with hand, depression bar band movable slider moves down in chute, elastic component is compressed, then upwards gear shifting handle is stirred with hand, steel ball in limited impression is squeezed in the 3rd groove of slide block by the madial wall of handle skeleton jack, steel ball no longer embeds dodges in groove, and now gear shifting handle can by from pull-off on operating handle; Gear shifting handle, by after pull-off on operating handle, unclamps depression bar, resilient element urges movable part return, and the steel ball in final limited impression embeds in the second groove on the slide block of side, completes gear shifting handle dismounting.